期刊名称:Proceedings of the National Academy of Sciences
印刷版ISSN:0027-8424
电子版ISSN:1091-6490
出版年度:2021
卷号:118
期号:46
DOI:10.1073/pnas.2115544118
语种:English
出版社:The National Academy of Sciences of the United States of America
摘要:Permanyer et al. (
1) extend the analysis of human longevity by Vaupel et al. (
2) to analyze trends in best-practice healthy life expectancy (BPHLE) in addition to best-practice life expectancy (BPLE) at birth. They estimate that, in the period 1990–2019, BPHLE increased at a slower pace than BPLE. We concur with Permanyer et al. (
1) about the importance of healthy life expectancy. Differences in trends between BPHLE and BPLE, however, are not obvious when it is recognized that BPHLE estimates are uncertain.
As life expectancy rises, it is unclear whether the extra years of life are being lived in good health. Mixed results have been found, depending on the age, population, and measure used (
3). Since the seminal work by Sanders (
4), there has not been a consensus on how to measure healthy life expectancy. The debate is ongoing, as acknowledged by Permanyer et al. (
1).
Fig. 1 replicates figure 1 in ref.
1 using the same data from the Global Burden of Disease (
5) but incorporating the reported 95% uncertainty intervals (UIs) (vertical lines).
Fig. 1.
BPLE and BPHLE with 95% UIs (vertical lines), 1990–2019. Source: Global Burden of Disease (
5).
All the analyses in ref.
1 are based on point estimates, with no mention of their uncertainty. Incorporating the uncertainty of each data point (
5) in the calculation of the best-practice linear trends is not straightforward, and different approaches may be adopted. For simplicity, we assumed all the data are normally distributed with mean values equal to the point estimates. We approximated the SD as one-fourth of the range of the corresponding 95% UIs. With these assumptions, we carried out a Monte Carlo simulation by randomly sampling 20,000 draws of year- and sex-specific estimates of BPHLE and BPLE from the corresponding distributions. Next, we fitted a linear regression to each draw, obtaining 20,000 estimates of the slope for each set, and derived summary measures. Results are shown in
Table 1. The point estimates match with the values reported in ref.
1, but the uncertainty intervals of the sex-specific slopes of BPHLE and BPLE overlap, which reveals an important fact: Differences in trends between BPHLE and BPLE described in ref.
1 are not statistically significant.
Table 1.
Regression slopes of BPHLE and BPLE trends, and their corresponding 95% UIs (within square brackets), 1990–2019
Slope of BPHLE
Slope of BPLE
Females
0.150 [0.085 to 0.216
